ICT is a key enabler for the manufacturing sector. It’s
transforming the global manufacturing arena while opening opportunities
in the African market.
Africa lags behind its global counterparts in industrial and
manufacturing development. Even when comparing the percentage
manufacturing contributes to the gross domestic product (GDP) in African
countries to other developing countries, manufacturing contributes
about ten percent in African countries and 21 percent in other
developing countries.
In Africa, but outside South Africa, there are pockets of
manufacturing success stories. The Ethiopian leather industry has made a
name for itself in global niche markets. Robert Parker, group VP of
research for IDC Manufacturing Insights, says the one significant
manufacturing segment in Africa is the remanufacturing of computer and
electronics.
However, the picture is getting brighter. Globalisation, innovation
and ICT are transforming many sectors to anywhere, anytime platforms. In
the manufacturing sector, the mantra is “design anywhere, make
anywhere, sell anywhere,” says Parker.
One shift is product manufacturing, separated into tasks and spread
across manufacturing facilities. This is seen as a huge opportunity for
new, smaller manufacturing entrants in low income countries, including
Africa, according to the Industrial Development Report 2009 by the
United Nations Industrial Development Organization (UNIDO).
Parker speaks of a similar shift from mass to micro to pod
manufacturing. Historically, manufacturers built one facility to serve
the world. With pod manufacturing, manufacturers can download designs
and methods from anywhere to localised manufacturing equipment to serve
the local economy.
Pod manufacturing has reduced cost tremendously and increased
flexibility. For example, there is equipment to manufacture wine,
starting at $3 500.
Parker also says that local African manufacturers will be able to
“bring more diversified and custom products to their local consumers”.
For example, Digiskin allows customers to go online to design skins to
cover gadgets, including cellphones.
A company can purchase a production machine to provide some of these skins locally to customers.
For a long-term opportunity, Parker says that African governments
need to leverage access to their abundant resources and require firms to
develop manufacturing and processing facilities locally alongside
extraction operations. In some instances, deposits in Africa may account
for 80 to 90 percent of global deposits of certain precious minerals or
metals. They need to play the leverage game like China. China recently
limited the export of rare metals to boost the price. African
governments can use the same principle in a different way.
In every aspect, ICT is embedded in the manufacturing value chain
from infrastructure to intelligent manufacturing. Without sufficient
broadband infrastructure, approaches like pod manufacturing might not be
possible.
Parker also sees another opportunity with the pervasive wireless
infrastructure in Africa, allowing African firms to tap into and manage
the full manufacturing value chain almost anywhere with technology like
remote sensing and radio-frequency identification (RFID).
While there may only be pockets of manufacturing on the continent,
the global manufacturing shift opens new, even immediate, opportunities
for ICT firms looking for new pastures, e.g. industrial clusters in
Uganda and Tanzania, as they develop. It will be important for ICT firms
to continually scan the environment to take advantage of these emerging
opportunities.
Manufacturing convergence
Further
south, leveraging information, communication, control and power is
helping South African manufacturers innovate and compete.
Manufacturers have two options during the global economic downturn:
cut back and try to weather the storm, or take the opportunity to be
more innovative and aggressive. However, because South African factories
struggle to manufacture products at the same cost as is possible
elsewhere in the world, and due to a strong currency, local
manufacturing concerns face these two options all the time.
Rockwell Automation believes that even though convergence has become a
cliché over the past decade, “today the combination of technology
maturity and economic necessity has made manufacturing convergence a
manufacturing reality”. Manufacturing convergence sees the merging of
functions and systems that have been separate. The theory is that with
people, processes and technology working together, manufacturers can
perform better.
Convergence within manufacturing leverages information, communication, control and power.
It’s no use simply having systems and machines recording data.
Information must be in a manageable form: the new goal is presenting
information in context.
Sources of information can be “streamlined to allow configuration,
visualisation, maintenance and optimisation of manufacturing processes
and plant assets,” Rockwell says.
Immense value is created when IT and manufacturing departments are
able to share information seamlessly and securely, while running
multiple applications over the same network. An enterprise manufacturing
approach that is particularly suited to larger distributed companies
envisions the enterprise as a “virtual manufacturing network”.
EOH, during an implementation at Coca-Cola’s greenfields Bloemfontein
plant, was able to capitalise on available technologies while the rest
of the group used mostly manual or semi-automatic systems. In time,
improvements to its other factories will mean that they can join the
network across the Coca-Cola SABCO enterprise.
The
trend nowadays sees standard, unmodified Ethernet being adopted broadly
across the plant and enterprise for data collection and real-time
control. Add to this newer functionality such as voice, video and
mobility, which are beginning to appear in the plant environment.
However, despite these advances, manufacturing convergence is a
complex environment and cannot be delivered by a single supplier.
Locally, system integrators like Bytes and EOH implement solutions from
companies as varied as Cisco, Microsoft, SAP, Wonderware and Dassault
Systems.
Beyond this, original equipment manufacturers are embracing new
so-called “smart” service business models enabled through embedded
software, wireless connectivity and online services.
This shift has significant implications for manufacturers.
Lifecycles of products are becoming ever shorter as releases will
begin to ship in “real-time” with software devices delivered to products
over networks when needed. Oracle’s manufacturing VP, Manish Modi,
reckons it’s hard to accurately predict what manufacturing operations
will look like five years from now, but “factors we experience today are
likely to have a residual effect on the supply chains of tomorrow.”
Modi says that many of the top manufacturers will have leading
“service-oriented architecture suites in place to enable supply chain
evolution as well as needed flexibility to quickly respond to changing
markets and inevitable shifts in buying patterns”.
He also suggests that most manufacturing systems will support Web or
Enterprise 2.0. “The future adoption of tools like wikis, blogs and
mash-ups to create store, and collaborate on information by skilled
manufacturing users should not come as a surprise. Touch screens and
sophisticated wireless devices should be a common part of leading
factory floors.”
But, the biggest problem in converged manufacturing is not the
availability or implementation of technology: it’s changing the mindset
of the people themselves.
